Cyanocobalamin (Vitamin B12)
$50.00
Out of stock
Cyanocobalamin (Vitamin B12) 1 mg x 10 mL is a research-grade liquid formulation of a water-soluble vitamin essential to numerous biological processes, including cellular metabolism, DNA synthesis, and neurological function.
Cyanocobalamin serves as a key cofactor in enzymatic reactions that support energy production, red blood cell formation, and nervous system signaling. It is widely utilized in laboratory settings to study metabolic pathways, nutrient deficiencies, and cellular replication mechanisms.
This multi-dose vial contains 1 mg/mL of cyanocobalamin in a 10 mL solution, offering consistency and precision for controlled research applications.
Key Features:
1 mg/mL Cyanocobalamin (Vitamin B12)
10 mL multi-dose vial
Supports research in metabolism, neurology, and hematology
High purity, laboratory-grade formulation
⚠️ For research use only. Not for human consumption.
Cyanocobalamin, a synthetic form of Vitamin B12, is widely used in research due to its essential role in cellular metabolism, neurological function, and DNA synthesis.
Cofactor in metabolic pathways: Critical for enzymatic reactions involved in energy production and cellular metabolism
DNA synthesis support: Plays a key role in nucleotide formation and cell replication
Neurological function: Essential for myelin synthesis and nervous system signaling pathways
Red blood cell formation: Involved in erythropoiesis and hematological function
👉 Researchers commonly utilize cyanocobalamin to study metabolic efficiency, neurological signaling, and cellular growth processes.
1. Cellular Metabolism & Energy Production
Methylation pathways
Homocysteine metabolism
Conversion of nutrients into usable cellular energy
➡️ Cyanocobalamin acts as a cofactor in key metabolic enzyme systems
2. Neurological Function & Myelin Synthesis
Nerve cell signaling pathways
Myelin sheath formation
Neurotransmitter regulation
➡️ Studied for its role in maintaining neural integrity and communication
3. DNA Synthesis & Cell Replication
Nucleotide biosynthesis
Cellular division processes
Epigenetic methylation mechanisms
➡️ Essential in research involving rapidly dividing cells and genetic stability
4. Hematology & Red Blood Cell Formation
Erythropoiesis pathways
Interaction with folate metabolism
Oxygen transport systems
➡️ Used in studies of blood cell development and function
5. Nutritional & Deficiency Models
Vitamin deficiency research
Absorption and transport mechanisms
Gastrointestinal and intrinsic factor studies
➡️ Helps researchers understand nutrient uptake and deficiency impacts
Vitamin B12 in Human Metabolism
https://www.ncbi.nlm.nih.gov/books/NBK441923/Role of Vitamin B12 in Neurological Function
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6413301/Vitamin B12 and DNA Synthesis
https://pubmed.ncbi.nlm.nih.gov/19151237/B12 Deficiency and Hematologic Effects
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4953733/Homocysteine & B12 Metabolism
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2672034/